JP2011186515A - Computer system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a computer system for controlling a cooling fan according to a temperature inside a casing even when a battery is mounted on an option board. <P>SOLUTION: A system board is installed inside the casing, and includes a heat generation device and a control part for the system board. The option board is connected to the system board inside the casing, and includes the battery and a control board for the option board. A temperature sensor measures the temperature inside the casing, and outputs it as a measurement temperature. The control part for the option board outputs a first specification control signal when the battery is not charged, and outputs a second specification control signal when the battery is charged. The control part for the system board starts the cooling fan at a first rotation speed according to the measurement temperature when the first specification control signal is supplied, and starts the cooling fan at a second rotation speed larger than the first rotation speed according to the measurement temperature when the second specification control signal is supplied. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a computer system capable of adding functions.

  A computer system in which a system board and a slot are installed is known. The computer system is further provided with an option board connected to the system board via a slot for adding functions. When the components mounted on the system board and the option board generate heat, the computer system is further provided with a cooling fan for cooling the inside of the casing.

  For example, in the technique described in Japanese Patent Application Laid-Open No. 2009-238020, the system board (system controller) and the plurality of option boards include a temperature sensor and a cooling fan, and the system board further identifies the plurality of option boards. The area management table in which the information and the information of the option board (temperature sensor, cooling fan) are registered, and the fan control table in which a plurality of temperatures and a plurality of rotation speeds are registered, refer to the area management table Then, the option board (connection option board) connected to the system controller is identified by the identification information, and the temperature sensor of the system controller and the connection option board among the multiple rotation speeds is measured by referring to the fan control table. System controller and connection at the number of rotations according to the temperature Controlling the cooling fan of the option board.

  For this reason, according to the technique described in JP2009-238020A, the cooling fan can be controlled in accordance with the temperature in the housing. However, a battery may be mounted on the option board. Since the battery is charged / discharged, the temperature in the housing when the battery is charged is higher than when the battery is not charged. Such a case is not described in JP2009-238020A.

  As another technique, Japanese Patent Application Laid-Open No. 11-85323 describes controlling a cooling fan. However, since this technique does not monitor the state of charge of the battery pack, fan control according to the temperature of the battery pack is not performed.

  As another technique, Japanese Patent Application Laid-Open No. 10-126976 discloses a charging circuit that controls the battery temperature to decrease stepwise when the battery pack temperature rises.

  As another technique, Japanese Patent Application Laid-Open No. 2007-323678 discloses that the number of rotations of a cooling fan is controlled at an environmental temperature in consideration of a connected device (a device that operates with an AC power source or a device that operates with a battery). Is described. However, this technique reduces the number of revolutions of the cooling fan to save power when the battery is charged.

JP 2009-238020 A Japanese Patent Laid-Open No. 11-85323 JP-A-10-126976 JP 2007-323678 A

  As described above, a battery may be mounted on the option board. Since the battery is charged / discharged, the temperature in the housing when the battery is charged is higher than when the battery is not charged. Even when at least one of JP-A Nos. 11-85323, 10-126976, and 2007-323678 is applied to JP-A-2009-238020, the timing at which the battery is charged is triggered. As a fan control is not performed. That is, even if the heat generating device mounted on the option board is simply replaced with a battery, the fan control cannot be performed with the timing when the battery is charged as a trigger.

  An object of the present invention is to provide a computer system capable of controlling a cooling fan in accordance with the temperature in a housing even when a battery is mounted on an option board.

  The computer system of the present invention includes a system board, a slot, an option board, a temperature sensor, and a cooling fan. The system board is installed in a housing and includes a device that generates heat when energized, and a system board control unit that inputs and outputs data representing the execution result of the device. The slot is installed in the housing and connected to the system board. The option board is connected to the slot when installed in the chassis, and is equipped with a battery that generates heat by charging and an option board controller that inputs and outputs data between the system board controller . The temperature sensor measures the temperature in the housing and outputs the measured temperature. The cooling fan cools the inside of the housing. The option board control unit outputs a first specification control signal to the system board control unit when the battery is not charged, and outputs the second specification control signal to the system board control unit when the battery is charged. Output. When the first specification control signal is supplied, the system board controller operates the cooling fan at the first rotation speed according to the measured temperature, and when the second specification control signal is supplied, the measured temperature Accordingly, the cooling fan is operated at a second rotational speed greater than the first rotational speed.

  According to the computer system of the present invention, fan control is performed using the timing at which the battery is charged as a trigger. For this reason, even when a battery is mounted on the option board, the cooling fan can be controlled according to the temperature in the housing.

FIG. 1 is a block diagram showing a configuration of a computer system according to the first embodiment of the present invention. FIG. 2 shows the first fan rotation speed control table 101. FIG. 3 shows the second fan rotation speed control table 102. FIG. 4 is a flowchart showing the operation of the computer system according to the first embodiment of the present invention. FIG. 5 is a block diagram showing a configuration of a computer system according to the second embodiment of the present invention. FIG. 6 is a flowchart showing the operation of the computer system according to the second embodiment of the present invention. FIG. 7 is a block diagram showing a configuration of a computer system according to the third embodiment of the present invention. FIG. 8 is a flowchart showing the operation of the computer system according to the third embodiment of the present invention.

  Hereinafter, a computer system according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

(First embodiment)
FIG. 1 is a block diagram showing a configuration of a computer system according to the first embodiment of the present invention.

  The computer system according to the first embodiment of the present invention includes a system board 17, a slot 8, an option board 3, a first temperature sensor 9, and a cooling fan 10 installed in the housing 1.

  The slot 8 is connected to the system board 17.

  The system board 17 includes a device 5 that generates heat when energized, and a system board controller 100. The device 5 is exemplified by a CPU (Central Processing Unit). The system board control unit 100 inputs and outputs data representing the execution result of the device 5. The system board control unit 100 includes first and second fan rotation speed control tables 101 and 102 described later.

  The option board 3 is connected to the slot 8 when installed in the housing 1. An example of the slot 8 is a PCI slot, and an example of the option board 3 is a PCI card that is an expansion card installed in the PCI slot. The option board 3 is mounted with a battery 90 that generates heat upon charging and an option board controller 200. The option board control unit 200 has a function of charging the battery 90 and a function of inputting / outputting data to / from the system board control unit 100.

  The 1st temperature sensor 9 measures the temperature in the housing | casing 1, and outputs it as 1st measurement temperature TA. The first temperature sensor 9 is exemplified by a thermistor.

  One or more cooling fans 10 are provided in the housing 1 in order to cool the inside of the housing 1.

  FIG. 2 shows the first fan rotation speed control table 101. In the first fan rotation speed control table 101, a plurality of temperatures T1 to Tn (n is an integer of 2 or more) and a plurality of rotation speeds R11 to R1n in the first specification are registered.

  FIG. 3 shows the second fan rotation speed control table 102. In the first fan rotation speed control table 101, a plurality of temperatures T1 to Tn and a plurality of rotation speeds R21 to R2n in the second specification are registered. The plurality of rotation speeds R21 to R2n in the second specification are larger than the plurality of rotation speeds R11 to R1n in the first specification, respectively.

  FIG. 4 is a flowchart showing the operation of the computer system according to the first embodiment of the present invention.

  The system board controller 100 inputs and outputs data to and from the option board controller 200 (step S11).

  In step S11, the device 5 generates heat when energized. For this reason, the first temperature sensor 9 always measures the temperature in the housing 1 and outputs it as the first measured temperature TA (step S12).

  The option board controller 200 does not charge the battery 90. In this case, the option board controller 200 outputs the first specification control signal C1 to the system board controller 100 (step S13—NO).

  When the first specification control signal C <b> 1 is supplied to the system board control unit 100, the system board control unit 100 includes a plurality of temperatures T <b> 1 to Tn registered in the first fan rotation speed control table 101. A temperature that matches the first measurement temperature TA is selected as the target temperature. Next, the system board controller 100 sets the rotation speed corresponding to the target temperature among the plurality of rotation speeds R11 to R1n in the first specification registered in the first fan rotation speed control table 101 as the first rotation. The number is selected (step S14).

  The system board controller 100 outputs an operation control signal 20 for operating the cooling fan 10 at the first rotational speed to the cooling fan 10, and the cooling fan 10 responds to the operation control signal 20 with the first control signal 20. Operates according to the rotation speed. Here, the operation control signal 20 is a PWM (Pulse Width Modulator) signal. That is, when the battery 90 is not charged, the system board control unit 100 operates the cooling fan 10 at the first rotation speed in accordance with the first measured temperature TA (step S15).

  On the other hand, the option board control unit 200 charges the battery 90. In this case, the option board controller 200 outputs the second specification control signal C2 to the system board controller 100 (step S13—YES).

  When the second specification control signal C2 is supplied to the system board control unit 100, the system board control unit 100, the system board control unit 100, a plurality of registered in the second fan rotation speed control table 102 Of the temperatures T1 to Tn, a temperature that matches the first measurement temperature TA is selected as the target temperature. Next, the system board control unit 100 sets the rotation number corresponding to the target temperature among the plurality of rotation numbers R21 to R2n in the second specification registered in the second fan rotation number control table 102 to the second rotation. The number is selected (step S16).

  The system board controller 100 outputs an operation control signal 20 (PWM signal) for operating the cooling fan 10 at the second rotational speed to the cooling fan 10, and the cooling fan 10 responds to the operation control signal 20. Operating at the second rotational speed. That is, when the battery 90 is charged, the system board control unit 100 operates the cooling fan 10 at a second rotational speed higher than the first rotational speed in accordance with the first measured temperature TA (Step S100). S17).

  As described above, a battery may be mounted on the option board. Since the battery is charged / discharged, the temperature in the housing when the battery is charged is higher than when the battery is not charged. Even when at least one of JP-A Nos. 11-85323, 10-126976, and 2007-323678 is applied to JP-A-2009-238020, the timing at which the battery is charged is triggered. As a fan control is not performed. That is, even if the heat generating device mounted on the option board is simply replaced with a battery, the fan control cannot be performed with the timing when the battery is charged as a trigger.

  On the other hand, in the computer system according to the first embodiment of the present invention, the first specification control signal C1 is output to the system board 17 when the option board 3 is not charging the battery 90, and the battery 90 is charged. The second specification control signal C2 is output to the system board 17. When the first specification control signal C1 is supplied, the system board 17 operates the cooling fan 10 at the first rotation speed according to the measured temperature TA. When the second specification control signal C2 is supplied, the cooling fan 10 is operated at a second rotational speed greater than the first rotational speed in accordance with the measured temperature TA. As described above, according to the computer system according to the first embodiment of the present invention, the fan control is performed using the timing at which the battery 90 is charged as a trigger. For this reason, even when the battery 90 is mounted on the option board 3, the cooling fan 10 can be controlled according to the temperature in the housing 1.

(Second Embodiment)
FIG. 5 is a block diagram showing a configuration of a computer system according to the second embodiment of the present invention. In the second embodiment, descriptions overlapping with those in the first embodiment are omitted.

  The computer system according to the second embodiment of the present invention further includes a second temperature sensor 15 installed in the vicinity of the device 5 in the housing 1.

  The second temperature sensor 15 measures the temperature of the device 5 and outputs it as the second measurement temperature TB. An example of the second temperature sensor 15 is a thermistor.

  FIG. 6 is a flowchart showing the operation of the computer system according to the second embodiment of the present invention.

  The system board controller 100 inputs and outputs data to and from the option board controller 200 (step S11).

  In step S11, the device 5 generates heat when energized. For this reason, the first temperature sensor 9 always measures the temperature in the housing 1 and outputs it as the first measured temperature TA (step S12). The second temperature sensor 15 always measures the temperature of the device 5 and outputs it as the second measured temperature TB (step S21).

  The system board controller 100 calculates the average value of the first and second measurement temperatures TA and TB as the measurement temperature TAB (step S22).

  The option board controller 200 does not charge the battery 90. In this case, the option board controller 200 outputs the first specification control signal C1 to the system board controller 100 (step S13—NO).

  When the first specification control signal C <b> 1 is supplied to the system board control unit 100, the system board control unit 100 includes a plurality of temperatures T <b> 1 to Tn registered in the first fan rotation speed control table 101. A temperature that matches the measurement temperature TAB is selected as the target temperature. Next, the system board controller 100 sets the rotation speed corresponding to the target temperature among the plurality of rotation speeds R11 to R1n in the first specification registered in the first fan rotation speed control table 101 as the first rotation. The number is selected (step S14).

  The system board controller 100 outputs an operation control signal 20 (PWM signal) for operating the cooling fan 10 at the first rotational speed to the cooling fan 10, and the cooling fan 10 responds to the operation control signal 20. Operating at the first rotational speed. That is, when the battery 90 is not charged, the system board controller 100 operates the cooling fan 10 at the first rotational speed in accordance with the first and second measured temperatures TA and TB (step S15).

  On the other hand, the option board control unit 200 charges the battery 90. In this case, the option board controller 200 outputs the second specification control signal C2 to the system board controller 100 (step S13—YES).

  When the second specification control signal C2 is supplied to the system board control unit 100, the system board control unit 100, the system board control unit 100, a plurality of registered in the second fan rotation speed control table 102 Of the temperatures T1 to Tn, a temperature that matches the measured temperature TAB is selected as the target temperature. Next, the system board control unit 100 sets the rotation number corresponding to the target temperature among the plurality of rotation numbers R21 to R2n in the second specification registered in the second fan rotation number control table 102 to the second rotation. The number is selected (step S16).

  The system board controller 100 outputs an operation control signal 20 (PWM signal) for operating the cooling fan 10 at the second rotational speed to the cooling fan 10, and the cooling fan 10 responds to the operation control signal 20. Operating at the second rotational speed. That is, when the battery 90 is charged, the system board controller 100 causes the cooling fan 10 to rotate at a second rotational speed higher than the first rotational speed in accordance with the first and second measured temperatures TA and TB. Operate (step S17).

  As described above, according to the computer system according to the second embodiment of the present invention, even when the battery 90 is mounted on the option board 3, the cooling fan 10 is controlled according to the temperature in the housing 1 and the temperature of the device 5. can do.

(Third embodiment)
FIG. 7 is a block diagram showing a configuration of a computer system according to the third embodiment of the present invention. In the third embodiment, descriptions overlapping with those of the second embodiment are omitted.

  The computer system according to the third embodiment of the present invention further includes a third temperature sensor 91 installed near the battery 90 in the housing 1.

  The third temperature sensor 91 measures the temperature of the battery 90 and outputs it as a third measured temperature TC. An example of the third temperature sensor 91 is a thermistor.

  FIG. 8 is a flowchart showing the operation of the computer system according to the third embodiment of the present invention.

  The system board controller 100 inputs and outputs data to and from the option board controller 200 (step S11).

  In step S11, the device 5 generates heat when energized. For this reason, the first temperature sensor 9 always measures the temperature in the housing 1 and outputs it as the first measured temperature TA (step S12). The second temperature sensor 15 always measures the temperature of the device 5 and outputs it as the second measured temperature TB (step S21). Further, the third temperature sensor 91 constantly measures the temperature of the battery 90 and outputs it as the third measured temperature TC (step S31).

  The system board controller 100 calculates an average value of the first to third measurement temperatures TA, TB, and TC as the measurement temperature TABC (step S32).

  The option board controller 200 does not charge the battery 90. In this case, the option board controller 200 outputs the first specification control signal C1 to the system board controller 100 (step S13—NO).

  When the first specification control signal C <b> 1 is supplied to the system board control unit 100, the system board control unit 100 includes a plurality of temperatures T <b> 1 to Tn registered in the first fan rotation speed control table 101. A temperature that matches the measurement temperature TABC is selected as the target temperature. Next, the system board controller 100 sets the rotation speed corresponding to the target temperature among the plurality of rotation speeds R11 to R1n in the first specification registered in the first fan rotation speed control table 101 as the first rotation. The number is selected (step S14).

  The system board controller 100 outputs an operation control signal 20 (PWM signal) for operating the cooling fan 10 at the first rotational speed to the cooling fan 10, and the cooling fan 10 responds to the operation control signal 20. Operating at the first rotational speed. That is, when the battery 90 is not charged, the system board controller 100 operates the cooling fan 10 at the first rotation speed according to the first to third measurement temperatures TA, TB, and TC (step S15).

  On the other hand, the option board control unit 200 charges the battery 90. In this case, the option board controller 200 outputs the second specification control signal C2 to the system board controller 100 (step S13—YES).

  When the second specification control signal C2 is supplied to the system board control unit 100, the system board control unit 100, the system board control unit 100, a plurality of registered in the second fan rotation speed control table 102 Of the temperatures T1 to Tn, a temperature that matches the measurement temperature TABC is selected as the target temperature. Next, the system board control unit 100 sets the rotation number corresponding to the target temperature among the plurality of rotation numbers R21 to R2n in the second specification registered in the second fan rotation number control table 102 to the second rotation. The number is selected (step S16).

  The system board controller 100 outputs an operation control signal 20 (PWM signal) for operating the cooling fan 10 at the second rotational speed to the cooling fan 10, and the cooling fan 10 responds to the operation control signal 20. Operating at the second rotational speed. In other words, when the battery 90 is charged, the system board controller 100 determines that the cooling fan has a second rotational speed higher than the first rotational speed according to the first to third measured temperatures TA, TB, and TC. 10 is operated (step S17).

  As described above, according to the computer system according to the third embodiment of the present invention, even when the battery 90 is mounted on the option board 3, it depends on the temperature in the housing 1, the temperature of the device 5, and the temperature of the battery 90. The cooling fan 10 can be controlled.

1 housing,
3 Option board,
5 devices,
8 slots,
9 First temperature sensor,
10 Cooling fan,
15 second temperature sensor,
17 System board,
90 battery,
100 system board controller,
101 first fan speed control table,
102 second fan speed control table,
200 Control unit for option board,
R11 to R1n Rotational speed in the first specification,
R21 to R2n Rotational speed in the second specification,
T1-Tn temperature,
TA first measurement temperature,
TAB measurement temperature (average value),
TABC measurement temperature (average value),
TB second measurement temperature,
TC Third measurement temperature

Claims (10)

A system board that is installed in the housing and generates heat when energized, and a system board controller;
A slot installed in the housing and connected to the system board;
An option board mounted with a battery that is connected to the slot when installed in the casing and generates heat by charging, and an option board control unit that inputs and outputs data between the system board control unit When,
A temperature sensor that measures the temperature in the housing and outputs the measured temperature; and
A cooling fan for cooling the inside of the housing,
The option board controller outputs a first specification control signal to the system board controller when the battery is not charged, and outputs a second specification control signal when the battery is charged. Output to the board controller,
When the first specification control signal is supplied, the system board control unit operates the cooling fan at a first rotational speed according to the measured temperature, and the second specification control signal is supplied. And a computer system that operates the cooling fan at a second rotational speed greater than the first rotational speed in accordance with the measured temperature. The system board is
A first fan rotation speed control table in which a plurality of temperatures and a plurality of rotation speeds in the first specification are registered;
A second fan rotation speed control table in which a plurality of temperatures and a plurality of rotation speeds in the second specification that are higher than a plurality of rotation speeds in the first specification are registered,
The system board controller is
When the first specification control signal is supplied, the number of revolutions corresponding to the measured temperature is selected from the plurality of revolutions in the first specification registered in the first fan revolution number control table. And the cooling fan is operated at the first rotational speed,
When the second specification control signal is supplied, the rotation speed corresponding to the measured temperature is selected from the plurality of rotation speeds registered in the second fan rotation speed control table in the second specification. The computer system according to claim 1, wherein the cooling fan is operated at the second rotational speed. The temperature sensor is
A first temperature sensor that measures the temperature in the housing and outputs the measured temperature as a first measured temperature;
A second temperature sensor that measures the temperature of the device and outputs it as a second measured temperature,
The system board control unit calculates an average value of the first and second measurement temperatures as the measurement temperature, and operates the cooling fan at the first or second rotation speed according to the measurement temperature. Or the computer system of 2. The temperature sensor is
A first temperature sensor that measures the temperature in the housing and outputs the measured temperature as a first measured temperature;
A second temperature sensor that measures the temperature of the device and outputs it as a second measured temperature;
A third temperature sensor that measures the temperature of the battery and outputs it as a third measured temperature;
The option board control unit outputs the third measured temperature to the system board control unit together with the second specification control signal when charging the battery.
2. The system board control unit calculates an average value of the first to third measurement temperatures as the measurement temperature, and operates the cooling fan at the first or second rotation speed in accordance with the measurement temperature. Or the computer system of 2. The system board controller outputs an operation control signal for operating the cooling fan at the first or second rotational speed to the cooling fan,
5. The computer system according to claim 1, wherein the cooling fan operates at the first or second rotational speed in accordance with the operation control signal. The computer system according to claim 5, wherein the operation control signal is a PWM (Pulse Wide Modulator) signal. (A) A system board that is installed in a housing and that generates a device that generates heat upon energization and a system board controller is connected to the system board via the slot when installed in the housing. Inputting and outputting data between the battery that generates heat by charging and the option board on which the control unit for the option board is mounted;
(B) a temperature sensor measuring the temperature in the housing and outputting it as a measured temperature;
(C) outputting the first specification control signal to the system board controller when the option board controller is not charging the battery;
(D) The option board controller outputs a second specification control signal to the system board controller when charging the battery;
(E) when the first specification control signal is supplied to the system board control unit, the system board control unit operates a cooling fan at a first rotational speed according to the measured temperature; ,
(F) When the second specification control signal is supplied to the system board control unit, the system board control unit performs a second rotation greater than the first rotation speed in accordance with the measured temperature. A cooling fan control method for a computer system, comprising: operating the cooling fan according to a number. The system board includes a first fan rotation speed control table in which a plurality of temperatures and a plurality of rotation speeds in the first specification are registered, a plurality of temperatures, and a number of rotations greater than the plurality of rotation speeds in the first specification. A second fan rotation speed control table in which a plurality of rotation speeds in 2 specifications are registered,
The step (e)
When the first specification control signal is supplied to the system board control unit, the system board control unit has a plurality of rotation speeds in the first specification registered in the first fan rotation speed control table. Of these, the rotation speed corresponding to the measured temperature is selected as the first rotation speed, and the cooling fan is operated at the first rotation speed,
The step (f)
When the second specification control signal is supplied, the rotation speed corresponding to the measured temperature is selected from the plurality of rotation speeds registered in the second fan rotation speed control table in the second specification. The cooling fan control method for a computer system according to claim 7, wherein the cooling fan is operated at the second rotation speed. The temperature sensor includes a first temperature sensor that measures the temperature in the housing and outputs the first measured temperature, and a second temperature sensor that measures the temperature of the device and outputs the measured temperature as a second measured temperature,
The step (e) or (f) includes:
The system board controller calculates an average value of the first and second measured temperatures as the measured temperature, and operates the cooling fan at the first or second rotational speed according to the measured temperature. Or a cooling fan control method for a computer system according to claim 8. The temperature sensor includes a first temperature sensor that measures a temperature in the housing and outputs the first measured temperature, a second temperature sensor that measures a temperature of the device and outputs the second measured temperature, and the battery A third temperature sensor that measures and outputs the temperature as a third measured temperature,
The step (d)
When the option board controller is charging the battery, the third measurement temperature is output to the system board controller together with the second specification control signal,
The step (e) or (f) includes:
8. The system board control unit calculates an average value of the first to third measurement temperatures as the measurement temperature, and operates the cooling fan at the first or second rotational speed according to the measurement temperature. Or a cooling fan control method for a computer system according to claim 8.

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